// * TYPE is the C++ type of the input/output
// (the one provided in the attribute 'type' of the tag 'input')
+printf("\n\n EED InversCrop::Process Start \n" );
+
if (bbGetInputActive()==true)
{
if ( (bbGetInputImageFix()!=NULL) && (bbGetInputImageMove()!=NULL) )
#if (VTK_MAJOR_VERSION >= 6)
bbGetInputImageFix()->GetExtent(ext);
#endif
- dim[0]= ext[1]-ext[0]+1;
- dim[1]= ext[3]-ext[2]+1;
- dim[2]= ext[5]-ext[4]+1;
-
- if (bbGetInputType()==0)
- {
- _imageoutput = vtkImageData::New();
- _imageoutput->Initialize();
- _imageoutput->SetSpacing( bbGetInputImageFix()->GetSpacing() );
- _imageoutput->SetDimensions( dim[0], dim[1], dim[2] );
-//EED 2017-01-01 Migration VTK7
-#if (VTK_MAJOR_VERSION <= 5)
- _imageoutput->SetScalarType( bbGetInputImageFix()->GetScalarType() );
- _imageoutput->AllocateScalars();
-#endif
-#if (VTK_MAJOR_VERSION >= 6)
- _imageoutput->AllocateScalars(bbGetInputImageFix()->GetScalarType() , 1);
-#endif
- }
- if (bbGetInputType()==1)
- {
- _imageoutput=bbGetInputImageFix();
- }
-
-
- // Duplicating Fix Image
- long sizeimage = dim[0]*dim[1]*dim[2]*bbGetInputImageFix()->GetScalarSize();
- memcpy( _imageoutput->GetScalarPointer() , bbGetInputImageFix()->GetScalarPointer() , sizeimage);
-
- // Copy the Move Image
- int j,k;
- int px,py,pz;
-
-//EED 2017-01-01 Migration VTK7
-#if (VTK_MAJOR_VERSION <= 5)
- bbGetInputImageMove()->GetWholeExtent(ext);
-#endif
-#if (VTK_MAJOR_VERSION >= 6)
- bbGetInputImageMove()->GetExtent(ext);
-#endif
-
- int dimMoveX = ext[1]-ext[0]+1;
- int dimMoveY = ext[3]-ext[2]+1;
- int dimMoveZ = ext[5]-ext[4]+1;
-
- int spxM=0; // start px MoveImage
- int sizeXM=0; // sizeX MoveImage
-
- px=bbGetInputOrigin()[0];
- spxM=0;
- if (px<=0)
- {
- spxM=px*(-1);
- px=0;
- }
- sizeXM = dimMoveX-spxM;
- if (px+sizeXM>=dim[0]) sizeXM=dim[0]-px;
-
- sizeXM=sizeXM*bbGetInputImageFix()->GetScalarSize();
- for (k=0; k<dimMoveZ; k++)
- {
- for (j=0; j<dimMoveY; j++)
- {
- py=j+bbGetInputOrigin()[1];
- pz=k+bbGetInputOrigin()[2];
+ dim[0]= ext[1]-ext[0]+1;
+ dim[1]= ext[3]-ext[2]+1;
+ dim[2] = 1;
+ if (bbGetInputImageFix()->GetDataDimension()==3)
+ {
+ dim[2] = ext[5]-ext[4]+1;
+ }
- if ( (py<dim[1]) && (pz<dim[2]) &&
- (py>=0) && (pz>=0) &&
- (sizeXM>0) )
+printf("EED InversCrop::Process 1 %d\n", bbGetInputImageFix()->GetDataDimension() );
+printf("EED InversCrop::Process 2 %d %d %d \n",dim[0],dim[1],dim[2] );
+
+ if (bbGetInputType()==0)
{
_imageoutput = vtkImageData::New();
_imageoutput->Initialize();
- _imageoutput->SetScalarType( bbGetInputImageFix()->GetScalarType() );
_imageoutput->SetSpacing( bbGetInputImageFix()->GetSpacing() );
- _imageoutput->SetDimensions( dim[0], dim[1], dim[2] );
+ _imageoutput->SetDimensions( dim[0], dim[1], dim[2] );
+//EED 2017-01-01 Migration VTK7
+#if (VTK_MAJOR_VERSION <= 5)
+ _imageoutput->SetScalarType( bbGetInputImageFix()->GetScalarType() );
_imageoutput->AllocateScalars();
+#endif
+#if (VTK_MAJOR_VERSION >= 6)
+ _imageoutput->AllocateScalars(bbGetInputImageFix()->GetScalarType() , 1);
+#endif
+
// Duplicating Fix Image
long sizeimage = dim[0]*dim[1]*dim[2]*bbGetInputImageFix()->GetScalarSize();
memcpy( _imageoutput->GetScalarPointer() , bbGetInputImageFix()->GetScalarPointer() , sizeimage);
_imageoutput=bbGetInputImageFix();
}
-
-
// Copy the Move Image
int j,k;
int px,py,pz;
+//EED 2017-01-01 Migration VTK7
+#if (VTK_MAJOR_VERSION <= 5)
bbGetInputImageMove()->GetWholeExtent(ext);
+#endif
+#if (VTK_MAJOR_VERSION >= 6)
+ bbGetInputImageMove()->GetExtent(ext);
+#endif
int dimMoveX = ext[1]-ext[0]+1;
int dimMoveY = ext[3]-ext[2]+1;
- int dimMoveZ = ext[5]-ext[4]+1;
+ int dimMoveZ = 1;
+ if (bbGetInputImageMove()->GetDataDimension()==3)
+ {
+ dimMoveZ = ext[5]-ext[4]+1;
+ }
+
+ printf("EED InversCrop::Process 3 %d %d %d \n",dimMoveX,dimMoveY,dimMoveZ );
+
+
+
int spxM = 0; // start px MoveImage
int sizeXM = 0; // sizeX MoveImage
-
px = bbGetInputOrigin()[0];
spxM = 0;
if (px<0)
{
- spxM=px*(-1);
- px=0;
+ spxM = px*(-1);
+ px = 0;
}
sizeXM = dimMoveX-spxM;
if (px+sizeXM>=dim[0]) sizeXM=dim[0]-px;
- sizeXM=sizeXM*bbGetInputImageFix()->GetScalarSize();
+ sizeXM = sizeXM * bbGetInputImageFix()->GetScalarSize();
for (k=0; k<dimMoveZ; k++)
{
for (j=0; j<dimMoveY; j++)
{
- py=j+bbGetInputOrigin()[1];
- pz=k+bbGetInputOrigin()[2];
+ py = j+bbGetInputOrigin()[1];
+ pz = k+bbGetInputOrigin()[2];
if ( (py<dim[1]) && (pz<dim[2]) &&
(py>=0) && (pz>=0) &&
(sizeXM>0) )
} // for j
} // for k
_imageoutput->Modified();
- } // If Image Fixe Move the same GetScalarType
- else {
+ } else { // If Image Fixe Move the same GetScalarType
printf ("ERROR: InversCrop both ImageFixe and ImageMove need the same format.\n");
printf (" type ImageFix:%d type ImageMove:%d\n", bbGetInputImageFix()->GetScalarType(), bbGetInputImageMove()->GetScalarType() );
}
- } // If Image Fixe Move != NULL
- else {
- printf ("ERROR: InversCrop need ImageFixe and ImageMove to run.\n");
- }
- bbSetOutputOut(_imageoutput);
+ } else { // If Image Fixe Move != NULL
+ printf ("ERROR: InversCrop need ImageFixe and ImageMove to run.\n");
+ }
+ bbSetOutputOut(_imageoutput);
} // if Active
+printf("EED InversCrop::Process End \n" );
}